Turonian Radiolarians from Karnezeika, Argolis Peninsula, Peloponnesus (Greece)

Near Karnezeika a roughly 140 m thick Upper Cretaceous section consists of interbedded pelagic limestones, cherts and coarse polymict breccias including ophiolites and shallow water limestones. At the base, pink pelagic limestones rest on deeply altered and fractured Lower Jurassic Pantokrator Limes...

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Main Authors:	Bandini, Alexandre, Baumgartner, Peter, Caron, Michéle
Language:	English
Published:	2018
Subjects:	Planktonic foraminifera
Online Access:	http://doc.rero.ch/record/316191/files/15_2006_Article_0605.pdf

id	ftreroch:oai:doc.rero.ch:316191
record_format	openpolar
spelling	ftreroch:oai:doc.rero.ch:316191 2023-05-15T18:00:23+02:00 Turonian Radiolarians from Karnezeika, Argolis Peninsula, Peloponnesus (Greece) Bandini, Alexandre Baumgartner, Peter Caron, Michéle 2018-06-18T17:51:34Z http://doc.rero.ch/record/316191/files/15_2006_Article_0605.pdf eng eng http://doc.rero.ch/record/316191/files/15_2006_Article_0605.pdf 2018 ftreroch 2023-02-16T17:31:46Z Near Karnezeika a roughly 140 m thick Upper Cretaceous section consists of interbedded pelagic limestones, cherts and coarse polymict breccias including ophiolites and shallow water limestones. At the base, pink pelagic limestones rest on deeply altered and fractured Lower Jurassic Pantokrator Limestone. This first pelagic facies is dated as middle Turonian, based on planktonic Foraminifera. Over 100 m of coarse ophiolite-carbonate breccias, interpreted as a channel or canyon fill in a pelagic environment, document the erosion of the Late Jurassic nappe edifice along the Cretaceous Pelagonian margin. Above these breccias, we mesured 16 m of principally pink and red pelagic limestones and radiolarian cherts, in which we recovered well-preserved radiolarians discussed here. In this interval, the presence of planktonic Foraminfera allows to state a late Turonian to Coniacian age. More than 40 radiolarian species are described and figured in this work. The radiolarian chronostratigraphy established by 10 different authors in 11 publications was compared for this study and used to establish radiolarian ranges. This exercise shows major discrepancies between authors for the radiolarian ranges of the studied assemblage. Nevertheless, a Turonian age can be stated based on a synthesis of cited radiolarian ranges. This age is consistent with the age based on planktonic foraminifera. In combining the ages of both Radiolaria and planktonic Foraminifera, the studied samples can be restricted to the late Turonian. However, the discrepancies of published radiolarian ranges call for an urgent, major revision of the Late Cretaceous radiolarian biochronology. The integration of planktonic foraminifera with radiolarians may greatly enhance biochronologic resolution in sections where both groups occur Other/Unknown Material Planktonic foraminifera RERO DOC Digital Library
institution	Open Polar
collection	RERO DOC Digital Library
op_collection_id	ftreroch
language	English
description	Near Karnezeika a roughly 140 m thick Upper Cretaceous section consists of interbedded pelagic limestones, cherts and coarse polymict breccias including ophiolites and shallow water limestones. At the base, pink pelagic limestones rest on deeply altered and fractured Lower Jurassic Pantokrator Limestone. This first pelagic facies is dated as middle Turonian, based on planktonic Foraminifera. Over 100 m of coarse ophiolite-carbonate breccias, interpreted as a channel or canyon fill in a pelagic environment, document the erosion of the Late Jurassic nappe edifice along the Cretaceous Pelagonian margin. Above these breccias, we mesured 16 m of principally pink and red pelagic limestones and radiolarian cherts, in which we recovered well-preserved radiolarians discussed here. In this interval, the presence of planktonic Foraminfera allows to state a late Turonian to Coniacian age. More than 40 radiolarian species are described and figured in this work. The radiolarian chronostratigraphy established by 10 different authors in 11 publications was compared for this study and used to establish radiolarian ranges. This exercise shows major discrepancies between authors for the radiolarian ranges of the studied assemblage. Nevertheless, a Turonian age can be stated based on a synthesis of cited radiolarian ranges. This age is consistent with the age based on planktonic foraminifera. In combining the ages of both Radiolaria and planktonic Foraminifera, the studied samples can be restricted to the late Turonian. However, the discrepancies of published radiolarian ranges call for an urgent, major revision of the Late Cretaceous radiolarian biochronology. The integration of planktonic foraminifera with radiolarians may greatly enhance biochronologic resolution in sections where both groups occur
author	Bandini, Alexandre Baumgartner, Peter Caron, Michéle
spellingShingle	Bandini, Alexandre Baumgartner, Peter Caron, Michéle Turonian Radiolarians from Karnezeika, Argolis Peninsula, Peloponnesus (Greece)
author_facet	Bandini, Alexandre Baumgartner, Peter Caron, Michéle
author_sort	Bandini, Alexandre
title	Turonian Radiolarians from Karnezeika, Argolis Peninsula, Peloponnesus (Greece)
title_short	Turonian Radiolarians from Karnezeika, Argolis Peninsula, Peloponnesus (Greece)
title_full	Turonian Radiolarians from Karnezeika, Argolis Peninsula, Peloponnesus (Greece)
title_fullStr	Turonian Radiolarians from Karnezeika, Argolis Peninsula, Peloponnesus (Greece)
title_full_unstemmed	Turonian Radiolarians from Karnezeika, Argolis Peninsula, Peloponnesus (Greece)
title_sort	turonian radiolarians from karnezeika, argolis peninsula, peloponnesus (greece)
publishDate	2018
url	http://doc.rero.ch/record/316191/files/15_2006_Article_0605.pdf
genre	Planktonic foraminifera
genre_facet	Planktonic foraminifera
op_relation	http://doc.rero.ch/record/316191/files/15_2006_Article_0605.pdf
_version_	1766169447376093184

Turonian Radiolarians from Karnezeika, Argolis Peninsula, Peloponnesus (Greece)

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